C) During the proliferative phase, levels of progesterone rise as the follicle begins to produce more hormone is correct statement for uterine cycle.
The menstrual phase, follicular phase (also known as the proliferative phase), and luteal phase are three of the phases that make up the menstrual cycle (or secretory phase). The uterus sheds its lining during the menstrual phase, which typically lasts from day 1 to day 5 of the cycle. The proliferative phase, which normally lasts from day 6 to day 14, is when the follicle matures and starts to release more hormone. During this time, estrogen levels increase. The endometrial lining is growing during this period, and the follicle is being stimulated. Finally, progesterone levels increase as the follicle starts to generate more hormone during the secretory phase, which normally lasts from day 15 to day 28. If fertilization does place, a hormone released by the egg helps to keep the corpus luteum healthy. These are the phases of uterine cycle.
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a man is heterozygous type A blood and a woman is type o
Answer:
Explanation:
Blood type is determined by the presence or absence of certain antigens on the surface of red blood cells. The most important blood type antigens are A and B, which are controlled by two genes located on the same chromosome. If an individual has two copies of the A gene, they are said to have type A blood, and if they have two copies of the B gene, they are said to have type B blood. If an individual has one copy of each gene, they are said to have type AB blood, and if they have two copies of neither gene, they are said to have type O blood.
In your scenario, if a man is heterozygous type A blood (AA or AO), and a woman is type O (OO), their offspring can only have type O blood because type O blood is recessive to both A and B. This means that type O blood will only be expressed in individuals who inherit two copies of the O gene, one from each parent.
It's worth noting that the inheritance of blood type is a classic example of codominance, where both alleles are expressed equally and the phenotype of the offspring reflects the presence of both alleles.
if you are outside in the cold, your body temperature may drop causing you to shiver. this is an example of
When your body produces less heat than it loses, hypothermia sets in. Cold weather or exposure to cold water are the most frequent causes of hypothermia.
The brain's temperature-controlling region, the hypothalamus, stimulates the body's natural heating and cooling processes in an effort to increase body temperature. Shivering is a defensive reaction to cold temperature exposure to generate heat through muscle activity. Your brain receives signals from microscopic sensors in your skin telling it to warm up when you feel cold. Then, your brain instructs your muscles to move by sending signals to the nerves in every part of your body. When exposed to cold conditions, your body starts to lose heat more quickly than it can generate it. After prolonged exposure to the cold, your body will eventually run out of energy. Hypothermia, or unusually low body temperature, is the outcome.
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saltwater has a higher concentration of solutes than freshwater. saltwater has a higher concentration of solutes than freshwater. true false
the vmax of muscle glycogen phosphorylase is much larger than that of the liver enzyme. briefly discuss the functional significance of this property.
the Vmax of the muscle enzyme glycogen phosphorylase needs to be larger than that of the liver enzyme because the muscle enzyme has a much higher concentration of glycogen on it than the liver enzyme.
The muscle needs to generate energy quickly, so having a higher Vmax is necessary. The enzymes which carries out the same reaction but with different kinetics or Km values are frequently known as isozymes or isoenzymes.
In muscles, glycogen breakdown supplies energy (ATP) through glycolysis. The conversion of stored glycogen to glucose-1-phosphate, which is converted to glucose-6-phosphate is catalyzes by the enzyme Glycogen phosphorylase.
In the liver, on the other hand, glycogen breakdown maintains a steady level of blood glucose between meals.
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The illustration shows a model of a chloroplast.
Chloroplast diagram
Which label points to the part of a chloroplast where the Calvin cycle happens?
A.
1
B.
2
C.
3
D.
4
its letter B!-> 2 because other supporters also say it's 2 so trust the community and pick b
Answer:
D
Explanation:
What is the ability to detect and respond to stimuli?
Sensitivity refers to an organism's capacity to react to outside stimuli. For instance, if the angle of the light is altered, plants will grow in the direction of the light source (an external stimulus).
What impact do stimuli have on behavior?For instance, two stimuli may regulate the same behavior, a singular stimulus may cause behavior A at one moment and conduct B at another, a stimulus may only influence behavior when another stimulus is present, and so on. A stimulus may also control behavior only when another stimulus is present.
Give an illustration of what stimuli are.A stimulus is something that has the potential to alter behavior or physical condition. The singular of stimulus is stimuli. Stimuli might be internal or external. One example of an external stimuli is how a drug impacts your body.
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if a protein is heated to a temperature just below the boiling point of water, which levels of protein structure are most likely to disassociate first, and why? which level of structure is not likely to be affected and why?
If a protein is heated to a temperature just below the boiling point of water, the most likely level of protein structure to dissociate first is the tertiary structure. The high temperature can break the weak interactions that maintain the protein's 3D structure, causing the protein to unfold and lose its function.
Why is breakage of primary structure easy than the secondary structure?The secondary structure, which is maintained by hydrogen bonds, may also be disrupted at high temperatures. However, these bonds are generally stronger than the weak interactions that maintain the tertiary structure, so they are less likely to break apart.
The primary structure, which is the linear sequence of amino acids, is not likely to be affected by high temperatures because it is held together by strong peptide bonds that are not easily broken by thermal energy.
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Drag the tiles to the correct boxes to complete the pairs.
Match the genes with their linkage ability.
genes close to each other
genes apart from each other,
but on the same chromosome
unlinked genes
not so strongly linked genes
strongly linked genes
genes on different chromosomes
Genes to their correct linkage ability.
genes close to each other - strongly linked genesgenes apart from each other, but on the same chromosome - not so strongly linked genesgenes on different chromosomes - unlinked genesWhat is a gene's ability to link?A gene's ability to link refers to the proximity of two genes on a chromosome, and their likelihood of being inherited together. If two genes are located close to each other on the same chromosome, they are said to be strongly linked.
This means that they tend to be passed down together from one generation to the next. On the other hand, if two genes are located far apart on the same chromosome or on different chromosomes, they are considered unlinked or weakly linked.
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The pressure indicated by the question mark is the ___. systolic pressure mean arterial pressure pulse pressure diastolic pressure
The pressure indicated by the question mark is the systolic pressure, systolic pressure mean arterial pressure and there is also diastolic pressure.
Systolic blood pressure is basically used to indicates how much pressure your blood is exerting against your artery walls when the heart beats. Diastolic blood pressure is mainly used to indicates how much pressure your blood is exerting against your artery walls while the heart is resting between beats.
Mean Arterial Pressure (MAP) = Diastolic Pressure + 1/3 Pulse Pressure ~93 mm Hg = ~80 mm Hg + ~ 40 mm Hg 3
Blood pressure is taken using two measurements: systolic (measured when the heart beats, when blood pressure is at its highest) and diastolic (measured between heart beats, when blood pressure is at its lowest).Diastole represents ventricular filling, and systole represents ventricular contraction/ejection. Systole and diastole occur in both the right and left heart, though with very different pressures (see hemodynamics below).
The pressure indicated by the question mark is the systolic pressure, systolic pressure mean arterial pressure and there is also diastolic pressure.
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The task is to determine the value of pressure, given as 2000 N/m², in pounds per square inch (lb/in²).
To convert the pressure from N/m² to lb/in², we need to use the appropriate conversion factors. The first step is to convert the given pressure of 2000 N/m² to pounds-force per square inch (lb/in²). The conversion factor can be obtained by considering the relationship between Newtons and pounds-force, as well as the conversion between square meters and square inches. By multiplying the given pressure by the conversion factor, we can calculate the equivalent value in lb/in². The second paragraph of the response will provide a detailed explanation of the conversion process, highlighting the unique keywords from the summary, such as "pressure," "N/m²," "lb/in²," and the conversion factors used.
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A woman is homozygous dominant for short fingers (SS). She marries a man who is heterozygous for short fingers (Ss). Will any of their children have long fingers (ss)
An early consequence of the release of oxygen gas by plant and bacterial photosynthesis was to A) generate intense lightning storms. B) change the atmosphere from oxidizing to reducing. C) make it easier to maintain reduced molecules. D) cause iron in ocean water and terrestrial rocks to rust (oxidize). E) prevent the formation of an ozone layer.
An early consequence of the release of oxygen gas by plant and bacterial photosynthesis was to D) cause iron in ocean water and terrestrial rocks to rust (oxidize).
plant take in carbon dioxide and gives out oxygen to make food with use of chemical energy and the process of photosynthesis was discovered by Jan Ingenuous
It is thought that this process may take several billion years to evolve, but if this process was possible, other planets may have evolved faster than expected.
photosynthetic organism generally uses reducing agents such as hydrogen rather than water.
Well evolved flowering plants had C4 plants and a critical factor in the complex life of an organism.
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Why is it unlikely that muscle can tear from their bones?
Muscles is not likely to tear from their bones because perforating fibers of collagen attach the tendons and periosteum to the cortical surfaces of bone.
muscle tear is rare but very common in old aged people due to resulting from a deficiency of calcium and vitamin D.
muscle tear can happen in areas like in overloaded in areas like your shoulders, hamstrings, quadriceps and calves.
muscle tear can also cause strains, which can then result into causing the damage to blood vessels which is present in that spot, the Bleeding from the damaged vessels can also cause swelling and eventually pain in tissues around them,
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what did you learn as you trim your roses, a thorn penetrates your palm through all epidermal strata. what are the layers of the epidermis penetrated, starting from the surface of the skin?
Starting from the skin's surface, the layers of the epidermis penetrated are stratum corneum, stratum lucidum, stratum granulosum, stratum spinosum, and stratum basale.
The epidermal layers comprise the stratum basale (the epidermis's lowest layer), the stratum spinosum, the stratum granulosum, the stratum lucidum, and the stratum corneum (the most superficial portion of the epidermis).
The epidermis is composed of squamous epithelium that has undergone stratification and keratinization. They are made up of four or five layers of epithelial cells, depending on where they are located in the body. These layers are called stratum corneum, stratum granulosum, stratum spinosum, and stratum basale. Only the palms and soles have "thick skin". Between the stratum corneum and the stratum granulosum is a fifth layer called the stratum lucidum.
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Complete question :
what did you learn as you trim roses, a thorn penetrates your palm through all epidermal strata. what are the layers of the epidermis penetrated, starting from the surface of skin? the stratum corneum, stratum lucidum, stratum granulosum, stratum spinosum, and stratum basale.
Where does ribosome assembly occur in the nucleus?
Place the labels in order denoting the flow of blood through the structures of the heart beginning with the vena cavae Systemic capillaries Ascending aorta1 8 15 Bicuspid valve (mitral) Pulmonary valve 2 9 6 Superior vena cavae Pulmonary artery 3 10 L. subclavian artery Right ventricle Aortic valve Left ventricle 4 Pulmonary trunk Lungs 5 Tricuspid valve Left atrium 13 Right atrium Coronary arteries Pulmonary vein
higher vena cava, lower vena cava, the right atrium Right ventricle, Tricuspid valve Lungs, pulmonary arteries, pulmonary veins, pulmonary valve, and pulmonary trunk Bicuspid valve (mitral valve), left atrium, and left ventricle an ascending aorta, an aortic valve Coronary arteries and systemic capillaries.
What is pulmonary artery?The right ventricle of the heart gives birth to the pulmonary artery, a significant blood channel that transports deoxygenated blood to the lungs where it is oxygenated. It is one of the two arteries, the other being the aorta, that carries blood away from the heart. The only artery in the body that delivers deoxygenated blood instead of oxygenated blood is the pulmonary artery, making it special. The pulmonary artery divides into pulmonary capillaries as it reaches the lungs, which are in charge of exchanging carbon dioxide and oxygen during respiration. The pulmonary veins are then used to carry the oxygenated blood back to the heart.
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Waves of muscular contractions that propel food along the gastrointestinal tract are called:_________
Food is moved through to the digestive tract by a sequence of wave-like muscular contractions called peristalsis.
What is the peristalsis process?The muscles who line your intestinal track automatically contract and relax in a wave-like motion known as peristalsis. Peristalsis, which starts in the throat when you inhale and continues through the esophagus, stomach, and intestines as you digest, is the movement of food through the digestive system.
Why does peristalsis occur?Through the myenteric plexus, the parasympathetic system (PNS) promotes peristalsis. The myenteric plexus' afferent (sensory) nerves provide data to interneurons inside the plexus. Interneurons interact with efferent nerves to cause smooth muscle cells to produce an action potential (spike-wave).
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the thin space between the parietal and visceral layers of the serous pericardium is the ______ cavity.
The thin space between the parietal and visceral layers of the serous pericardium is called the pericardial cavity.
The pericardial cavity is a fluid-filled space that lies between the two layers of the pericardium, a membranous sac that surrounds the heart. The pericardial cavity is lined by a serous membrane called the serous pericardium, which is composed of two layers: the visceral layer (also called the epicardium), which is the innermost layer and is closely adhered to the surface of the heart, and the parietal layer, which lines the inner surface of the fibrous pericardium. The pericardial cavity normally contains a small amount of pericardial fluid, which acts as a lubricant and allows the heart to move within the pericardium with minimal friction during contraction and relaxation. The pericardial cavity can become enlarged due to a buildup of excess fluid, a condition called pericardial effusion, which can cause compression of the heart and impair its function.
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the mechanism whereby an enveloped virus leaves a host cell is called group of answer choices penetration. transduction. budding. abduction. lysogeny.
The mechanism whereby an enveloped virus leaves a host cell is called budding. option 3)
Virus can reproduce only within a host cell, this cycle of infection begins with the attachment, where the virus attaches to a specific receptor site on the host cell, after this comes the entry, in the case of enveloped virus, the envelope can fuse directly with the cell membrane to enter the cell, they can also enter through endocytosis.
After entering the cell the virus initiates a replication and assembly mechanism depending on its genome, finally, the last stage of viral replication is the release or egress of the new virions produced in the host organism, some viruses can be released when the host cell dies, but some can leave infected cells by budding through the membrane without directly killing the cell.
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Full Question: The mechanism whereby an enveloped virus leaves a host cell is called group of answer choices
penetration. transduction. budding. abduction. lysogeny.2. Economic systems
a. Do not depend on limited natural resources
b. Rarely balance the costs and benefits of every
action
c. Should not include the costs of pollution with the
costs of an action
d. Must operate within the environment
Economic systems must operate within the environment. Therefore, option D is correct.
What are economic systems?The system of economic activities including production, consumption, and investment that predominate in a given region is referred to as the economic system.
Every economy operates under a certain set of conditions and presumptions. Traditional economies, command economies, mixed economies, and market economies are the four primary types of economic systems.
Economic systems must operate within the environment. Therefore, option D is correct.
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true/false valvular stenosis is when the valve leaflets, or cusps, fail to shut completely, permitting blood flow to continue even when the valve is presumably closed. during systole or diastole, some blood leaks back into the chamber proximal to the diseased valve, which increases the volume of blood the heart must pump and increases the workload of both the atrium and the ventricle.
False. Valvular stenosis is actually a condition where the valve opening is narrowed, making it difficult for blood to pass through.
The valve leaflets become thickened or fused, resulting in decreased blood flow through the valve. This causes increased workload on the chamber that lies behind the affected valve. During systole, the heart must work harder to pump blood through the narrowed valve, and during diastole, the blood flow is restricted as the valve fails to open completely. As a result, less blood is able to flow through the narrowed valve, leading to reduced blood flow to the body's organs and tissues, and potentially causing symptoms such as shortness of breath, chest pain, and fatigue. In valvular stenosis, blood does not leak back into the chamber proximal to the diseased valve.
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recall that your chambers had a set amount of co2 entering each chamber and then you measured how much co2 was exiting the chamber. suppose you conducted your experiment and discovered one of your chambers had a lower in-flow of air relative to the other chambers. what would this do to your data in that chamber?It would not change the results. It would bias the results toward more respiration. It would bias the results toward less photosynthesis. It would bias the results toward more photosynthesis.
Answer: It would bias the results toward more photosynthesis.
Explanation: If less air were entering, you would have less CO2 exiting. If you didn’t realize there was a problem with the chamber, you would conclude that the plant was photosynthesizing more and thus using more CO2.
The right answer is that it would bias the findings in favour of increased respiration.
This is because a reduced air inflow would result in less oxygen entering the chamber, which would make it more probable that the plants inside would utilise respiration rather than photosynthesis to create energy.
This would lead to a greater amount of CO2 leaving the chamber than there would be if there was an equivalent inflow of air, which would bias the findings in favour of more respiration.
In other words, relative to the other chambers, the data in that one would be biassed to reflect a larger rate of respiration than photosynthesis.
Complete Question:
Recall that your chambers had a set amount of CO2 entering each chamber and then you measured how much CO₂ was exiting the chamber. Suppose you conducted your experiment and discovered one of your chambers had a lower in-flow of air relative to the other chambers. What would this do to your data in that chamber?
It would not change the results.
It would bias the results toward more respiration.
It would bias the results toward less photosynthesis.
It would bias the results toward more photosynthesis.
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Can I have help please
Cardiovascular disease (CVD) refers to a group of disorders that affect the heart and blood vessels.
3 ways a cardiovascular disease can be treated are:
Lifestyle modificationsMedication Interventional proceduresHow do the treatments work?Lifestyle modifications: Making changes to your lifestyle, such as eating a healthy diet, quitting smoking, getting regular exercise, and managing stress, can help reduce the risk of CVD and improve overall heart health.
Medications: A variety of medications can be used to treat CVD, including cholesterol-lowering drugs, blood pressure-lowering drugs, anti-platelet drugs, and blood thinners.
Interventional procedures: In some cases, interventional procedures may be necessary to treat CVD. These procedures include angioplasty, where a balloon is used to open a blocked coronary artery.
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when the maternal immune system becomes sensitized against antigens expressed by the fetus, what type of immune reaction occurs? a. allergic b. autoimmune c. anaphylaxis d. alloimmune
When the maternal immune system becomes sensitized against antigens expressed by the fetus, then an alloimmune immune reaction occurs.
What is Alloimmune?
An immune reaction to nonself antigens from individuals of the same species, also known as alloantigens or isoantigens, is known as alloimmunity (also known as isoimmunity). Blood group antigens and histocompatibility antigens are the two main categories of alloantigens. In alloimmunity, the body produces antibodies (known as alloantibodies) against the alloantigens, which can sometimes even attack the foetus. Graft rejection is caused by an alloimmune (isoimmune) reaction and manifests as a decline in function or total loss of the graft.
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12. What type of mutation is more than likely to be dangerous to your genetics?
The type of mutation that is more than likely to be dangerous to your genetics is frameshift mutation.
What is frameshift mutation?Gametes experience germline mutations. These mutations are particularly important since they can be passed down to kids, who will all have the mutation in every cell.
A frameshift mutation is a genetic change brought on by an insertion or deletion that changes how the DNA sequence is read. A chain of numerous smaller molecules known as nucleotides makes up a DNA sequence.
Therefore, frameshift mutations are the kind of mutation that is most likely to be risky for your genetic makeup.
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which of the following phases of the bacterial growth curve is matched with the correct definition? view available hint(s)for part a which of the following phases of the bacterial growth curve is matched with the correct definition? stationary phase--the phase where cells are not dividing very rapidly as they acclimatize to a new environment death phase--the phase where the curve is flat; microbial deaths balance the number of new cells lag phase--the phase where the death of organisms exceeds the creation of new cells and the curve declines log phase--the phase where organisms are actively dividing and the generation time is constant
The bacterial growth curve represents the number of live cells in a bacterial population over a period of time. There are four distinct phases of the growth curve: lag, exponential (log), stationary, and death.
What is Bacterial growth?The initial phase is the lag phase where bacteria are metabolically active but not dividing. The exponential or log phase is a time of exponential growth.
In the stationary phase, growth reaches a plateau as the number of dying cells equals the number of dividing cells. The death phase is characterized by an exponential decrease in the number of living cells.
For growth, bacteria need specific conditions, and not all bacteria require the same conditions. Microbial development is influenced by elements such as oxygen, pH, temperature, and light.
Therefore, The bacterial growth curve represents the number of live cells in a bacterial population over a period of time. There are four distinct phases of the growth curve: lag, exponential (log), stationary, and death.
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Dr. wagner is investigating a newly discovered, disease-causing agent. she determines that one structure in the agent is double-stranded rna. what kind of agent is dr. wagner studying?
If Dr. Wagner has discovered a disease-causing agent with double-stranded RNA, she is likely studying a virus in the Reoviridae family, or a similar group of viruses.
Reoviruses are a family of viruses that are known to have double-stranded RNA genomes. They are common pathogens in humans and animals, and can cause a variety of illnesses, including respiratory infections, gastroenteritis, and viral meningitis. There are also other viruses that can have double-stranded RNA genomes, such as the Birnaviridae family and the Totiviridae family, among others. However, the Reoviridae family is the most well-known and common group of viruses with double-stranded RNA genomes, and is therefore the most likely candidate for the agent that Dr. Wagner is studying. It's worth noting that not all viruses have double-stranded RNA genomes. Some viruses have single-stranded RNA, while others have DNA genomes. The type of genome a virus has can have important implications for how it replicates, infects cells, and causes disease.
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where in the lymph node is a dendritic cell most likely associated with and activating a t lymphocyte?
Dendritic cells associate with B and T lymphocytes at cortex in lymph nodes. option 1)
A lymph node, sometimes known as a lymph gland, is a kidney-shaped component of the lymphatic and adaptive immune systems. A huge number of lymph nodes are linked throughout the body by the lymphatic veins. These are important locations for lymphocytes such as B and T cells. Lymph nodes are necessary for the immune system to operate properly, acting as filters for foreign particles such as cancer cells, but they do not have a detoxifying function.
A lymph node is a secondary lymphoid organ in the lymphatic system. A lymph node is composed of an outer cortex and an inner medulla encased in a fibrous capsule.
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Full Question: Where in the lymph node is a dendritic cell most likely associated with a B or T lymphocyte?
cortexcapsulemedullatrabeculaeWhat does the polar nature of water do?
Because of the polarity of water, each water molecule attracts other water molecules due to their opposing charges, establishing hydrogen bonds.
Because of the bent structure of the molecule, water (H2O) is polar. Because of the shape, the majority of the negative charge from the oxygen atoms is on one side of the molecule and the positive charge from the hydrogen atoms is on the other.
This is a polar covalent chemical bonding example. When solutes are introduced to water, their charge distribution may be changed.
The difference in electronegativity between hydrogen and oxygen explains why the molecule's form isn't linear and nonpolar (like CO2). Hydrogen has an electronegativity of 2.1, while oxygen has an electronegativity of 3.5.
The greater the difference in electronegativity values, the more probable it is that atoms will form a covalent connection. Ionic bonds exhibit a significant variance in electronegativity values.
Under normal conditions, hydrogen and oxygen both operate as nonmetals, but oxygen is far more electronegative than hydrogen, therefore the two atoms form a polar covalent chemical bond.
Because the highly electronegative oxygen atom draws electrons or negative charge, the region around the oxygen is more negative than the regions surrounding the two hydrogen atoms.
Both hydrogen atoms are attracted to the same side of the oxygen atom, but they are as far apart as they can be since the hydrogen atoms are both positively charged.
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Organisms can belong to the same class but different order
True or false
Arrange the following terms into the order in which a compound must pass through to move from plasma to CSF. Drag and drop options into correct order and submit. For keyboard navigation SHOW MORE O Pericyte O Capillary endothelium O Extracellular matrix O Astrocyte Unanswered.
While glucose, amino acids, and cations are transported via carrier-mediated processes, water, gases, and lipid soluble compounds can freely move from the plasma into the CSF.
Capillary endothelium, Extracellular Matrix, Pericyte, and Astrocyte are the cells that a compound must pass through before it reaches the CSF from the plasma.
The arachnoid granulations absorb the majority of the cerebrospinal fluid (CSF) into the venous system. The protrusions of the arachnoid mater that pierce the dura mater and protrude into the lumina of the dural venous sinuses are known as arachnoid granulations.
Three primary purposes of cerebral spinal fluid include: Trauma protection for the brain and spinal cord.
nourish the tissue of the nervous system.
Clear the cerebral metabolism of waste.
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The above question is incomplete. Check complete question below -
Arrange the following terms into the order in which a compound must pass through to move from plasma to CSF. -
Capillary endotheliumBasal LaminaPericyteAstrocyte